/* * Copyright (c) 2021, NVIDIA CORPORATION. All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #pragma once #include namespace cudnn_frontend { namespace graph { class MatmulNode; } } // namespace cudnn_frontend #include #include #include #include #include #include "cudnn_frontend_utils.h" namespace cudnn_frontend { /// /// MatMulDesc Descriptor Class /// This class tells the properties of the MatMul operation /// Properties: /// - compute_type /// /// Use MatMulDesc_v8 to build this class. /// Describe returns a string describing the MatMul operation /// class MatMulDesc_v8 : public BackendDescriptor { public: friend class MatMulDescBuilder_v8; friend class cudnn_frontend::graph::MatmulNode; std::string describe() const override { std::stringstream ss; #ifndef CUDNN_FRONTEND_SKIP_JSON_LIB ss << "CUDNN_BACKEND_MATMUL_DESCRIPTOR :" << " Math precision " << json{compute_type}; #else ss << "CUDNN_BACKEND_MATMUL_DESCRIPTOR :" << " Math precision " << int(compute_type); #endif return ss.str(); } MatMulDesc_v8(MatMulDesc_v8 &&from) = default; MatMulDesc_v8 & operator=(MatMulDesc_v8 &&from) = default; ~MatMulDesc_v8() = default; private: MatMulDesc_v8() = default; MatMulDesc_v8(MatMulDesc_v8 const &) = delete; MatMulDesc_v8 & operator=(MatMulDesc_v8 const &) = delete; DataType_t compute_type = DataType_t::NOT_SET; bool isPadded = false; double paddingValue = 0.0; }; //// /// MatMulDescBuilder_v8 Class /// Helper class used to build MatMulDesc_v8 class class MatMulDescBuilder_v8 { public: /** @defgroup MatMulDescBuilder_v8 * Set individual property of MatMulDesc_v8 class * @{ */ //! Set Math Precision Data Type for the Matmul Operation auto setComputeType(DataType_t data_type_) -> MatMulDescBuilder_v8 & { m_matMulDesc.compute_type = data_type_; return *this; } auto setComputeType(cudnnDataType_t data_type_) -> MatMulDescBuilder_v8 & { m_matMulDesc.compute_type = detail::convert_from_cudnn_type(data_type_); return *this; } /** @} */ // TODO Deprecate in v1.0 auto setMathPrecision(cudnnDataType_t data_type_) -> MatMulDescBuilder_v8 & { return setComputeType(data_type_); } //! Set padding value for matmul descriptor auto setPaddingValue(double paddingValue) -> MatMulDescBuilder_v8 & { m_matMulDesc.isPadded = true; m_matMulDesc.paddingValue = paddingValue; return *this; } //! constructs the MatMulDesc_v8 by calling the cudnn API //! Throws the appropriate error message MatMulDesc_v8 && build() { // Create a descriptor. Memory allocation happens here. auto status = m_matMulDesc.initialize_managed_backend_pointer(CUDNN_BACKEND_MATMUL_DESCRIPTOR); if (status != CUDNN_STATUS_SUCCESS) { set_error_and_throw_exception(&m_matMulDesc, status, "CUDNN_BACKEND_MATMUL_DESCRIPTOR: cudnnCreate Failed"); return std::move(m_matMulDesc); } // Once Created lets set the descriptor parameters. cudnnDataType_t cudnn_data_type; status = detail::convert_to_cudnn_type(m_matMulDesc.compute_type, cudnn_data_type); if (status != CUDNN_STATUS_SUCCESS) { set_error_and_throw_exception( &m_matMulDesc, status, "CUDNN_BACKEND_MATMUL_DESCRIPTOR: SetAttribute CUDNN_ATTR_MATMUL_COMP_TYPE Failed"); return std::move(m_matMulDesc); } status = detail::set_attribute(m_matMulDesc.pointer->get_backend_descriptor(), CUDNN_ATTR_MATMUL_COMP_TYPE, CUDNN_TYPE_DATA_TYPE, 1, &cudnn_data_type); if (status != CUDNN_STATUS_SUCCESS) { set_error_and_throw_exception( &m_matMulDesc, status, "CUDNN_BACKEND_MATMUL_DESCRIPTOR: SetAttribute CUDNN_ATTR_MATMUL_COMP_TYPE Failed"); return std::move(m_matMulDesc); } #if (CUDNN_VERSION >= 8900) // Setting padding value if matmul desc is padded NV_CUDNN_FE_DYNAMIC_CHECK_BACKEND_DESCRIPTOR( 8900, m_matMulDesc, "CUDNN_BACKEND_MATMUL_DESCRIPTOR: SetAttribute CUDNN_ATTR_MATMUL_PADDING_VALUE requires cudnn 8.9.0"); if (m_matMulDesc.isPadded) { status = detail::set_attribute(m_matMulDesc.pointer->get_backend_descriptor(), CUDNN_ATTR_MATMUL_PADDING_VALUE, CUDNN_TYPE_DOUBLE, 1, &m_matMulDesc.paddingValue); if (status != CUDNN_STATUS_SUCCESS) { set_error_and_throw_exception( &m_matMulDesc, status, "CUDNN_BACKEND_MATMUL_DESCRIPTOR: SetAttribute CUDNN_ATTR_MATMUL_PADDING_VALUE Failed"); return std::move(m_matMulDesc); } } #endif // Finalizing the descriptor status = detail::finalize(m_matMulDesc.pointer->get_backend_descriptor()); if (status != CUDNN_STATUS_SUCCESS) { set_error_and_throw_exception( &m_matMulDesc, status, "CUDNN_BACKEND_MATMUL_DESCRIPTOR: cudnnFinalize Failed"); return std::move(m_matMulDesc); } CUDNN_FE_LOG_LABEL_ENDL(m_matMulDesc); return std::move(m_matMulDesc); } explicit MatMulDescBuilder_v8() = default; ~MatMulDescBuilder_v8() = default; MatMulDescBuilder_v8(MatMulDescBuilder_v8 &&) = delete; MatMulDescBuilder_v8(MatMulDescBuilder_v8 const &) = delete; MatMulDescBuilder_v8 & operator=(MatMulDescBuilder_v8 const &) = delete; private: MatMulDesc_v8 m_matMulDesc; }; using MatMulDesc = MatMulDesc_v8; using MatMulDescBuilder = MatMulDescBuilder_v8; } // namespace cudnn_frontend